"tpee elastomer"
고탄성 TPU 엘라스토머 TPEE 소재 45D 쇼어 경도 내마모성
Thermoplastic Polyurethane Elastomer TPEE 45D High impact resistance and stable performance, easy processing thermoplastic polyurethane elastomer. Technical Specifications Test Items Test Method 45D Tensile Strength, 25℃, MPa GB/T 528 16.2 Elongation at Break, 25℃, % GB/T 528 453 Shore Hardness, 3s, HD GB/T 2411 45 Density, g/cm³ GB/T 533 1.147 Melt Flow Rate, g/10min (220℃, 2.16kg) GB-3682 12.9 Processing Guidelines TPEE must be pre-dried prior to processing to ensure the
UL94 V0 등급 열가소성 폴리우레탄 엘라스토머 고탄성 전자 제품용
TPEE Flame Retardant Material 70D Our TPEE Flame Retardant Material is a professionally modified special material independently developed by our company, characterized by low toxicity, environmental protection, and high-efficiency flame retardancy, stably reaching UL94 V0 grade. We provide flexible options of halogen-free and halogen-containing formulas to meet different environmental protection and usage requirements of global customers. The product combines excellent
25D 열가소성 폴리우레탄 엘라스토머 과립 TPEE 플라스틱 원료
Thermoplastic Polyurethane Elastomer TPEE 25D Product Overview TPEE 25D offers high impact resistance, stable performance, and easy processing capabilities. This thermoplastic polyurethane elastomer requires proper pre-drying before processing to maintain optimal material properties. Technical Specifications Test Items Test Method 25D Tensile Strength, 25℃, MPa GB/T 528 5.5 Elongation at Break, 25℃, % GB/T 528 410 Shore Hardness, 3s, HD GB/T 2411 25 Density, g/cm³ GB/T 533 1
산업용 등급 열가소성 폴리우레탄 TPU 엘라스토머 과립 72D 쇼어 경도
Thermoplastic Polyurethane Elastomer TPEE 72D Product Overview TPEE 72D offers high impact resistance, stable performance, and easy processing capabilities, making it ideal for demanding industrial applications. Technical Specifications Test Items Test Method 72D Tensile Strength, 25℃, MPa GB/T 528 38.5 Elongation at Break, 25℃, % GB/T 528 475 Shore Hardness, 3s, HD GB/T 2411 72 Density, g/cm³ GB/T 533 1.290 Processing Requirements Pre-drying is essential: TPEE must be pre
50D 강도 열탄화 폴리유레탄 엘라스토머 산업용 자동차 등급
Thermoplastic Polyurethane Elastomer TPEE 50D TPEE 50D offers high impact resistance, stable performance, and easy processing capabilities. This thermoplastic polyurethane elastomer requires proper pre-drying before processing to ensure optimal performance. Technical Specifications Test Items TPEE 50D Shore Hardness, 3s, HD 51 Tensile Strength, 25℃, MPa 19.2 Elongation at Break, 25℃, % 587 Melt Flow Rate, g/10min (220℃, 2.16kg) 1.0/6.9 Density, g/cm³ 1.175 Processing
전자 산업용 40D 열가소성 폴리우레탄 엘라스토머 TPU 펠릿
Thermoplastic Polyurethane Elastomer TPEE 40D Product Overview TPEE 40D offers high impact resistance, stable performance, and easy processing capabilities, making it an ideal material for demanding industrial applications. Processing Requirements TPEE must be pre-dried prior to processing to ensure the resin remains dry during manufacturing operations. Critical Note: When temperature exceeds the melting point, moisture in the resin causes hydrolysis, resulting in degraded
산업용 열탄화 폴리유레탄 엘라스토머 TPEE 63D 경화 충격 저항
Thermoplastic Polyurethane Elastomer TPEE 63D Technical Specifications Test Items Test Method 63D Tensile Strength, 25℃, MPa GB/T 528 32.3 Elongation at Break, 25℃, % GB/T 528 599 Shore Hardness, 3s, HD GB/T 2411 63 Density, g/cm³ GB/T 533 1.246 Melt Flow Rate, g/10min (230℃, 2.16kg) GB-3682 29.34 Processing Guidelines TPEE must be pre-dried prior to processing to ensure the resin remains dry during processing. When the temperature exceeds the melting point, moisture in the
32D 경도 열가소성 폴리우레탄 엘라스토머 TPEE 소재 충격 저항성
Thermoplastic Polyurethane Elastomer (TPEE) High impact resistance, stable performance, and easy processing characteristics make TPEE an ideal material for demanding industrial applications. Technical Specifications Test Items Test Method 32D Tensile Strength, 25℃, MPa GB/T 528 8.4 Elongation at Break, 25℃, % GB/T 528 544 Shore Hardness, 3s, HD GB/T 2411 32 Density, g/cm³ GB/T 533 1.108 Melt Flow Rate, g/10min (220℃, 2.16kg) GB-3682 42.9 Processing Guidelines TPEE must be pre
자동차 부품용 55D 열가소성 폴리우레탄 엘라스토머 TPEE 과립
Thermoplastic Polyurethane Elastomer TPEE 55D Material Processing Requirements TPEE must be pre-dried prior to processing to ensure the resin remains dry during manufacturing operations. When the temperature exceeds the melting point, moisture in the resin will cause hydrolysis, resulting in degraded physical properties and increased brittleness. Generally, hydrolysis will not occur when the moisture content is below 0.1%. Therefore, materials exposed to air must be re-dried
높은 유연성 TPU 곡물 열 플라스틱 폴리유레탄 엘라스토머 35D TPE 원자재
Thermoplastic Polyurethane Elastomer TPEE 35D Technical Specifications Test Items Test Method 35D Tensile Strength, 25℃, MPa GB/T 528 9.6 Elongation at Break, 25℃, % GB/T 528 450 Shore Hardness, 3s, HD GB/T 2411 35 Density, g/cm³ GB/T 533 1.138 Melt Flow Rate, g/10min (220℃, 2.16kg) GB-3682 21.04 Processing Requirements TPEE must be pre-dried prior to processing to ensure the resin remains dry during processing. When the temperature exceeds the melting point, moisture in the
전자 제품 케이스용 TPEE 블로우 성형 소재 엘라스토머 40D 경도
Flexible TPEE Blow Molding Material 40D - Environmental Protection & Durable Our TPE blow molding material 40D is a high-performance elastomer developed for blow molding processes. It integrates the flexibility of rubber and the processability of engineering plastics, with excellent melt strength, uniform wall thickness during molding, and stable performance. It is non-toxic, halogen-free, and widely used in automotive, electronic, and industrial fields, providing reliable
유연한 TPEE 부공형물질 곡물 40D-55D 경화 환경 안전
Flexible TPEE Blow Molding Material (40D-55D) Our TPE blow molding material (40D-55D) is a high-performance elastomer developed specifically for blow molding processes. This material integrates the flexibility of rubber with the processability of engineering plastics, offering excellent melt strength, uniform wall thickness during molding, and stable performance characteristics. It is non-toxic, halogen-free, and widely used in automotive, electronic, and industrial
